#include "DCircle.hpp"
#include "DMath.hpp"
#include "DPrimitive.hpp"
#include <math.h>
#include <stdio.h>

// for debugging purpose only
/*#include <windows.h>
#include <commctrl.h>
#include <wchar.h>
HWND g_hStatus;*/
// -----

bool GetCircOrigAndRad(PDPoint pTmpPt, PDPointList pPoints, PDLine pLines,
    PDPoint pOrig, double *pdRad)
{
    int nNorm = pPoints->GetCount(0);
    int nCtrl = pPoints->GetCount(1);

    CDPoint cOrig, cPt1, cPt2, cPt3, cDir1;
    double dr = -1.0, d1;

    int iPts = nNorm;
    if(pTmpPt) iPts++;
    if(nNorm > 0) cPt1 = pPoints->GetPoint(0, 0).cPoint;
    else if(pTmpPt) cPt1 = *pTmpPt;
    if(nNorm > 1) cPt2 = pPoints->GetPoint(1, 0).cPoint;
    else if(pTmpPt) cPt2 = *pTmpPt;
    if(nNorm > 2) cPt3 = pPoints->GetPoint(2, 0).cPoint;
    else if(pTmpPt) cPt3 = *pTmpPt;

    if(pLines[0].bIsSet)
    {
        if(iPts == 1)
        {
            dr = GetLineProj(cPt1, pLines[0].cOrigin, pLines[0].cDirection, &cOrig);
        }
        else if(iPts > 1)
        {
            cDir1 = cPt2 - cPt1;
            d1 = GetNorm(cDir1);
            if(d1 < g_dPrec) return false;

            cDir1 = GetNormal(cDir1)/d1;
            cPt3 = (cPt2 + cPt1)/2.0;
            int iX = LineXLine(cPt3, cDir1, pLines[0].cOrigin, pLines[0].cDirection, &cOrig);
            if(iX < 1) return false;

            dr = GetDist(cPt1, cOrig);
        }
        else return false;
    }
    else if(nCtrl > 0)
    {
        cOrig = pPoints->GetPoint(0, 1).cPoint;
        if(iPts > 0) dr = GetDist(cOrig, cPt1);
        else return false;
    }
    else if(iPts > 2)
    {
        dr = GetCircOrigin(cPt1, cPt2, cPt3, &cOrig);
    }
    else if(iPts > 1)
    {
        cOrig = (cPt1 + cPt2)/2.0;
        dr = GetDist(cOrig, cPt1);
    }
    else return false;

    *pOrig = cOrig;
    *pdRad = dr;
    return true;
}

bool AddCirclePoint(double x, double y, char iCtrl, PDPointList pPoints, PDLine pLines)
{
    int nNorm = pPoints->GetCount(0);

    if((iCtrl == 2) || (iCtrl == 3))
    {
        CDPoint cOrig;
        double dRad;
        if(!GetCircOrigAndRad(NULL, pPoints, pLines, &cOrig, &dRad)) return false;
        if(dRad < g_dPrec) return false;

        CDPoint cPt1 = {x, y};
        double dNewRad = GetDist(cOrig, cPt1);
        if(dNewRad < g_dPrec) return false;

        CDInputPoint cInPt1;
        CDPoint cDir;
        for(int i = 0; i < nNorm; i++)
        {
            cInPt1 = pPoints->GetPoint(i, 0);
            cDir = cInPt1.cPoint - cOrig;
            cPt1 = cOrig + dNewRad*cDir/dRad;
            pPoints->SetPoint(i, 0, cPt1.x, cPt1.y, 0);
        }
        return true;
    }

    int nCtrl = pPoints->GetCount(1);
    if((nCtrl == 1) && (nNorm == 1)) return true;

    bool bRes = false;

    if(pLines[0].bIsSet)
    {
        if(iCtrl == 0)
        {
            if(nNorm < 2)
            {
                pPoints->AddPoint(x, y, 0);
                nNorm++;
            }
            bRes = (nNorm > 1);
        }
    }
    else
    {
        if(iCtrl == 1)
        {
            if(nCtrl < 1)
            {
                pPoints->AddPoint(x, y, 1);
                nCtrl++;
            }
        }
        else
        {
            if(nNorm < 3)
            {
                pPoints->AddPoint(x, y, 0);
                nNorm++;
            }
        }
        bRes = ((nCtrl > 0) && (nNorm > 0)) || (nNorm > 2);
    }
    return bRes;
}

bool BuildCircCache(CDLine cTmpPt, int iMode, PDPointList pPoints, PDPointList pCache,
    PDLine pLines, double *pdMovedDist)
{
    pCache->ClearAll();

    bool bFound = false;
    CDPoint cOrig;
    double dRad;
    double dOffs = 0.0;

    if(iMode == 1)
        bFound = GetCircOrigAndRad(&cTmpPt.cOrigin, pPoints, pLines, &cOrig, &dRad);
    else bFound = GetCircOrigAndRad(NULL, pPoints, pLines, &cOrig, &dRad);

    if(!bFound) return false;
    if(dRad < g_dPrec) return false;

    if(iMode == 2)
    {
        if(cTmpPt.cDirection.x > 0.5) dOffs = cTmpPt.cDirection.y;
        else
        {
            dOffs = GetDist(cTmpPt.cOrigin, cOrig);
            if(cTmpPt.cDirection.x < -0.5)
            {
                dOffs += dRad;
                dOffs *= -1.0;
            }
            else dOffs -= dRad;
        }
        *pdMovedDist = dOffs;
    }

    if(dRad > g_dPrec)
    {
        pCache->AddPoint(cOrig.x, cOrig.y, 0);
        pCache->AddPoint(dRad, dRad, 0);

        if(fabs(dOffs) > g_dPrec) pCache->AddPoint(dOffs, 0, 2);
    }
    return true;
}

int BuildCircPrimitives(CDLine cTmpPt, int iMode, PDRect pRect, PDPointList pPoints,
    PDPointList pCache, PDPrimObject pPrimList, PDLine pLines, PDRefPoint pBounds, double dOffset,
    double *pdMovedDist, PDPoint pDrawBnds)
{
    if(iMode > 0) BuildCircCache(cTmpPt, iMode, pPoints, pCache, pLines, pdMovedDist);

    int iCnt = pCache->GetCount(0);

    if(iCnt < 2) return 0;

    CDPoint cOrig = pCache->GetPoint(0, 0).cPoint;
    CDPoint cRad = pCache->GetPoint(1, 0).cPoint;

    cRad.x += dOffset;
    int nOffs = pCache->GetCount(2);
    if(nOffs > 0) cRad.x += pCache->GetPoint(0, 2).cPoint.x;

    CDPrimitive cPrim, cPrimPt;

    cPrimPt.iType = 7;
    cPrimPt.cPt1.x = 1;
    cPrimPt.cPt1.y = 0;
    cPrimPt.cPt2 = cOrig;
    cPrimPt.cPt3 = 0;
    cPrimPt.cPt4 = 0;
    CropPrimitive(cPrimPt, pRect, pPrimList);

    double dr = fabs(cRad.x);

    pDrawBnds->y = M_PI*dr;
    pDrawBnds->x = -pDrawBnds->y;

    if(pBounds[0].bIsSet)
    {
        if(pBounds[1].bIsSet)
        {
            cPrim.iType = 2;
            cPrim.cPt1 = cOrig;
            cPrim.cPt2.x = cOrig.x + dr;
            cPrim.cPt2.y = cOrig.y + dr;
            GetCircRefPoint(pBounds[1].dRef, pCache, &cPrim.cPt3);
            GetCircRefPoint(pBounds[0].dRef, pCache, &cPrim.cPt4);
            return CropPrimitive(cPrim, pRect, pPrimList);
        }
    }

    cPrim.iType = 3;
    cPrim.cPt1 = cOrig;
    cPrim.cPt2.x = cOrig.x + dr;
    cPrim.cPt2.y = cOrig.y + dr;
    cPrim.cPt3 = 0;
    cPrim.cPt4 = 0;

    return CropPrimitive(cPrim, pRect, pPrimList);
}

void AddCircSegment(double d1, double d2, PDPointList pCache, PDPrimObject pPrimList, PDRect pRect)
{
    int iCnt = pCache->GetCount(0);

    if(iCnt < 2) return;

    CDPoint cOrig = pCache->GetPoint(0, 0).cPoint;
    CDPoint cRad = pCache->GetPoint(1, 0).cPoint;

    int nOffs = pCache->GetCount(2);
    if(nOffs > 0) cRad.x += pCache->GetPoint(0, 2).cPoint.x;
    if(cRad.x < g_dPrec) return;

    double dAng1, dAng2;
    dAng1 = d2/cRad.x;
    dAng2 = d1/cRad.x;

    CDPrimitive cPrim;
    cPrim.iType = 2;
    cPrim.cPt1 = cOrig;
    cPrim.cPt2.x = cOrig.x + cRad.x;
    cPrim.cPt2.y = cOrig.y + cRad.x;
    cPrim.cPt3.x = cOrig.x + cRad.x*cos(dAng1);
    cPrim.cPt3.y = cOrig.y + cRad.x*sin(dAng1);
    cPrim.cPt4.x = cOrig.x + cRad.x*cos(dAng2);
    cPrim.cPt4.y = cOrig.y + cRad.x*sin(dAng2);
    CropPrimitive(cPrim, pRect, pPrimList);
}

double GetCircDistFromPt(CDPoint cPt, CDPoint cRefPt, bool bSnapCenters, PDPointList pCache, PDLine pPtX)
{
    pPtX->bIsSet = false;

    int iCnt = pCache->GetCount(0);

    if(iCnt < 2) return 0.0;

    CDPoint cOrig = pCache->GetPoint(0, 0).cPoint;
    CDPoint cRad = pCache->GetPoint(1, 0).cPoint;

    int nOffs = pCache->GetCount(2);
    if(nOffs > 0) cRad.x += pCache->GetPoint(0, 2).cPoint.x;

    CDPoint cDir = cPt - cOrig;
    CDPoint cPt1, cPt2;

    double dr2 = GetNorm(cDir);
    double dRes = dr2 - cRad.x;

    double dDir = 1.0;
    if(dRes < 0) dDir = -1.0;

    double d1, d2, dMin;

    CDPoint cN1 = {1.0, 0.0};
    if(dr2 > g_dPrec) cN1 = cDir/dr2;

    cPt1 = cOrig + cRad.x*cN1;
    cPt2 = cOrig - cRad.x*cN1;
    d1 = GetDist(cPt1, cRefPt);
    d2 = GetDist(cPt2, cRefPt);

    pPtX->bIsSet = true;
    if(d1 < d2)
    {
        dMin = d1;
        dRes = dDir*d1;
        pPtX->cOrigin = cPt1;
        pPtX->cDirection = cN1;
    }
    else
    {
        dMin = d2;
        dRes = dDir*d2;
        pPtX->cOrigin = cPt2;
        pPtX->cDirection = -1.0*cN1;
    }
    pPtX->dRef = atan2(pPtX->cDirection.y, pPtX->cDirection.x);

    if(bSnapCenters && (dr2 < dMin))
    {
        dRes = dr2;
        pPtX->bIsSet = true;
        pPtX->cOrigin = cOrig;
        pPtX->cDirection = 0;
    }

    return dRes;
}

bool HasCircEnoughPoints(PDPointList pPoints, int iInputLines)
{
    int nNorm = pPoints->GetCount(0);
    int nCtrl = pPoints->GetCount(1);
    bool bRes = false;

    if(iInputLines > 0) bRes = (nNorm > 0);
    else if(nCtrl > 0) bRes = (nNorm > 0);
    else bRes = (nNorm > 1);

    return bRes;
}

bool GetCircleRestrictPoint(CDPoint cPt, int iMode, double dRestrictValue, PDPoint pSnapPt,
    PDPointList pCache, PDPointList pPoints, PDLine pLines)
{
    int iCnt = pCache->GetCount(0);
    if(iCnt < 1) return false;

    double dRad = dRestrictValue;
    CDPoint cOrig = pCache->GetPoint(0, 0).cPoint;

    if(iMode == 2)
    {
        if(iCnt < 2) return false;
        CDPoint cRad = pCache->GetPoint(1, 0).cPoint;
        dRad += cRad.x;
    }

    if(pLines[0].bIsSet && (iMode != 2))
    {
        int iCnt1 = pPoints->GetCount(0);
        if(iCnt1 < 1) return false;

        CDPoint cPt1 = pPoints->GetPoint(0, 0).cPoint;
        CDPoint cPt2 = pLines[0].cOrigin - cPt1;
        CDPoint cDir = pLines[0].cDirection;

        double dPoly[3];
        dPoly[0] = cPt2*cPt2 - Power2(dRad);
        dPoly[1] = 2.0*cDir*cPt2;
        dPoly[2] = cDir*cDir;

        double dRoots[2];
        int iRoots = SolvePolynom(2, dPoly, dRoots);

        if(iRoots < 1) return false;

        CDPoint cOrig1 = pLines[0].cOrigin + dRoots[0]*cDir;
        CDPoint cDir1 = cPt - cOrig1;
        double dNorm1 = GetNorm(cDir1);

        if(iRoots < 2)
        {
            if(dNorm1 > g_dPrec)
            {
                *pSnapPt = cOrig1 + dRad*cDir1/dNorm1;
                return true;
            }
            return false;
        }

        CDPoint cOrig2 = pLines[0].cOrigin + dRoots[1]*cDir;
        CDPoint cDir2 = cPt - cOrig2;
        double dNorm2 = GetNorm(cDir2);

        if(dNorm1 > g_dPrec)
        {
            cPt1 = cOrig1 + dRad*cDir1/dNorm1;
            if(dNorm2 > g_dPrec)
            {
                cPt2 = cOrig2 + dRad*cDir2/dNorm2;
                double d1 = GetDist(cPt, cPt1);
                double d2 = GetDist(cPt, cPt2);
                if(d1 < d2)
                {
                    *pSnapPt = cPt1;
                    return true;
                }

                *pSnapPt = cPt2;
                return true;
            }
            else
            {
                *pSnapPt = cPt1;
                return true;
            }
        }
        else if(dNorm2 > g_dPrec)
        {
            cPt2 = cOrig2 + dRad*cDir2/dNorm2;
            *pSnapPt = cPt2;
            return true;
        }

        return false;
    }

    CDPoint cDir = cPt - cOrig;
    double dNorm = GetNorm(cDir);

    if(dNorm < g_dPrec)
    {
        pSnapPt->x = dRad;
        pSnapPt->y = 0.0;
        return true;
    }

    cDir /= dNorm;
    *pSnapPt = cOrig + dRad*cDir;
    return true;
}

double GetCircRadiusAtPt(CDPoint cPt, PDPointList pCache, PDLine pPtR, bool bNewPt)
{
    pPtR->bIsSet = false;
    pPtR->cOrigin = 0;
    pPtR->cDirection = 0;

    int iCnt = pCache->GetCount(0);

    if(iCnt < 2) return -1.0;

    CDPoint cOrig = pCache->GetPoint(0, 0).cPoint;
    CDPoint cRad = pCache->GetPoint(1, 0).cPoint;

    int nOffs = pCache->GetCount(2);
    if(nOffs > 0) cRad.x += pCache->GetPoint(0, 2).cPoint.x;

    CDPoint cDir = cPt - cOrig;
    double dNorm = GetNorm(cDir);

    pPtR->bIsSet = true;
    pPtR->cOrigin = cOrig;
    if(dNorm > g_dPrec) pPtR->cDirection = cDir/dNorm;

    double dr = cRad.x;
    if(bNewPt) dr = dNorm;

    return dr;
}

bool GetCirceRad(PDPointList pCache, double *pdVal)
{
    int iCnt = pCache->GetCount(0);
    if(iCnt < 2) return false;

    CDPoint cRad = pCache->GetPoint(1, 0).cPoint;
    int nOffs = pCache->GetCount(2);
    if(nOffs > 0) cRad.x += pCache->GetPoint(0, 2).cPoint.x;

    *pdVal = cRad.x;
    return true;
}

bool GetCircPointRefDist(double dRef, PDPointList pCache, double *pdDist)
{
    int iCnt = pCache->GetCount(0);
    if(iCnt < 2) return false;

    CDPoint cRad = pCache->GetPoint(1, 0).cPoint;

    int nOffs = pCache->GetCount(2);
    if(nOffs > 0) cRad.x += pCache->GetPoint(0, 2).cPoint.x;

    *pdDist = cRad.x*dRef;
    return true;
}

bool GetCircPointAtDist(double dDist, PDPointList pCache, PDPoint pPt)
{
    int iCnt = pCache->GetCount(0);
    if(iCnt < 2) return false;

    CDPoint cOrig = pCache->GetPoint(0, 0).cPoint;
    CDPoint cRad = pCache->GetPoint(1, 0).cPoint;

    int nOffs = pCache->GetCount(2);
    if(nOffs > 0) cRad.x += pCache->GetPoint(0, 2).cPoint.x;

    double dAng = dDist/cRad.x;
    pPt->x = cOrig.x + cRad.x*cos(dAng);
    pPt->y = cOrig.y + cRad.x*sin(dAng);
    return true;
}

bool GetCircRefPoint(double dRef, PDPointList pCache, PDPoint pPt)
{
    int iCnt = pCache->GetCount(0);
    if(iCnt < 2) return false;

    CDPoint cOrig = pCache->GetPoint(0, 0).cPoint;
    CDPoint cRad = pCache->GetPoint(1, 0).cPoint;

    int nOffs = pCache->GetCount(2);
    if(nOffs > 0) cRad.x += pCache->GetPoint(0, 2).cPoint.x;
    pPt->x = cOrig.x + cRad.x*cos(dRef);
    pPt->y = cOrig.y + cRad.x*sin(dRef);
    return true;
}

bool GetCircRefDir(double dRef, PDPointList pCache, PDPoint pPt)
{
    int iCnt = pCache->GetCount(0);
    if(iCnt < 2) return false;

    pPt->x = -sin(dRef);
    pPt->y = cos(dRef);
    return true;
}

bool GetCircReference(double dDist, PDPointList pCache, double *pdRef)
{
    int iCnt = pCache->GetCount(0);
    if(iCnt < 2) return false;

    //CDPoint cOrig = pCache->GetPoint(0, 0).cPoint;
    CDPoint cRad = pCache->GetPoint(1, 0).cPoint;

    int nOffs = pCache->GetCount(2);
    if(nOffs > 0) cRad.x += pCache->GetPoint(0, 2).cPoint.x;

    if(cRad.x < g_dPrec) return false;

    *pdRef = dDist/cRad.x;
    return true;
}

